Open Innovation Practices: A Literature Review
of Case Studies
Leidy Tatiana Rodriguez Torres and Edna Rocío Bravo Ibarra Universidad Industrial de Santander, Escuela de Estudios Industriales y Empresariales, Bucaramanga, Colombia
Email: [email protected], [email protected]
Adriana Paola León Arenas3 CEMEX, Bogotá, Colombia
Email: [email protected]
Abstract—The purpose of this article is to provide relevant
open innovation practices within the multidimensional
framework of organizational innovation proposed by
Crossan & Apaydin. For this aim, qualitative content
analysis of case studies was performed using the software
MAXQDA. In order to do so, case studies were derived from
searching databases as Harvard Business for Educators, ISI
Web of Knowledge, Proquest, Wiley Online Library and
Ebsco Host. Furthermore, a web analysis was conducted
and finally, a significant number of open innovation
practices were identified within three main dimensions:
Leadership, Managerial Levers and Business Process.
Index Terms—open innovation, practices, case studies,
literature review
I. INTRODUCTION
Innovation not only has been considered as a critical
source of competitive advantage in an increasingly
changing environment [1], but also, innovation capability
is one of the most important determinants of
organizational performance [2]. On this sense, the main
studies about innovation have been addressed from two
different approaches. The first one, or the traditional
approach (closed innovation), points out that
organizational sustainable growth relies on internal
investments in R&D and the control and protection of the
results derived from these investments [3]. However, a
number of factors that characterize the current market
dynamics have deteriorated the perspective before
described. Among these factors it is important to mention
the following: the labor mobility, the abundant venture
capital, the availability of knowledge [4], the reduction of
product life cycles [5], and the rising cost of technology
development [6].
In the last decade, a more open approach (open
innovation) has been developed and raised. The model of
open innovation recognizes that not all good ideas come
from inside the company and not all good ideas created
within the company can be successfully marketed
internally [3]. Therefore, an increasing number of
Manuscript received April 24, 2014; revised July 9, 2014.
organizations have actively started involving customers,
suppliers and other stakeholders in their innovation
processes [7]. The open innovation model has been
adjusted to the current market conditions since its
adoption provides suitable benefits, such as faster time-
to-market, less cost of innovation, better adaptation of
products and services to customer needs, commercial
utilization of knowledge or technologies that are not
aligned with the actual business model of the company,
and shared risk in products and services development [6]
[7] [8].
Some studies have provided open innovation practices
based on theoretical [9] [10] and practical [8] research.
Moreover, some reports published on the web have
identified open innovation practices using the case study
methodology [11]. However, investigations, which
identify these practices within a rigorous framework
involving different dimensions of organizational
innovation, are still required. Therefore, the purpose of
this paper is to identify open innovation practices and
organize them using the Multi-Dimensional Framework
of Organizational Innovation proposed by Crossan &
Apaydin [12]. These practices can be used by
organizations that strategically decide to enhance their
innovation processes through the integration of external
knowledge or by means of the commercialization of their
internal knowledge.
II. LITERATURE REVIEW
In the last decade, open innovation model has attracted
interest both, in academia and industry contexts because
of its adjustment to the innovation management trend
[13]. In this sense, this paradigm has been defined in the
scientific literature as “The purposive inflows and
outflows of knowledge to accelerate internal innovation,
and expand the markets for external use of innovation,
respectively. Open Innovation is a paradigm that assumes
that firms can and should use external ideas as well an
internal ideas, and internal and external paths to market,
as they look to advance their technology” [14].
In other words, Open Innovation highlights the
importance of using a wide range of knowledge sources
Journal of Advanced Management Science Vol. 3, No. 4, December 2015
©2015 Engineering and Technology Publishing 362doi: 10.12720/joams.3.4.362-367
for a company’s innovation and invention process
(including customers, competitors, academics, companies
in unrelated sectors)[15], as cooperating with external
actors is essential to increase the innovation capability [5]
[16]. In the same way, it assumes that internal ideas can
be taken to the market through external channels, outside
a firm’s current business in order to generate additional
value [17].
The open innovation model has been widely adopted in
a variety of industries. In spite of the fact that initial,
evidence was only found in high-tech industries (e.g.,
computers, information technology and pharmaceuticals)
[3], open innovation concepts were already being used in
a wide range of industries [3]. Similarly, it was found that
SMEs in the Netherlands employ a lot of open innovation
practices and their adoption has had an incremental
behavior since its appearance [8].
Regarding to the economic benefits generated by
incorporating open innovation practices, significant
evidence has been found. For example, Procter and
Gamble announced that they were able to increase their
product success rate by 50% and the efficiency of their
R&D by 60% as a result of introducing the concept of
open innovation in the organization [5].
Overall, the integration of open innovation practices in
companies as well as its economic benefits is evident. As
can be expected, leaving behind the closed model to
move forward the open model requires significant
changes in the way innovation processes are managed in
the companies [18]. Therefore, it is important to know the
practices that have been successfully implemented in this
model adoption.
Some researchers of open innovation model recognize
that customer involvement is a relevant alternative to
improve internal innovation process [18]. According to
Van de Vrande et al companies can obtain benefits from
the customer’s ideas and innovations of its clients either
by doing proactive market research, through the provision
of tools to experiment with and/or develop products
similar to the ones that are currently offered; or by means
of the development and assessment of products based on
customers’ designs [8].
Another possibility to search and integrate external
knowledge in any company’s innovation processes is by
means of external networking [14]. It includes formal
collaborative projects (e.g. R&D alliances) and more
general and informal networking activities. External
networking allows companies to quickly fill up specific
knowledge needs without having to spend large amounts
of time and money to develop this knowledge on their
own [8].
Moreover, companies can acquire intellectual property
from other organizations through licensing patents,
copyrights or trademarks in order to accelerate and
consolidate their internal research engines [19]. Equally,
projects that are not aligned with the actual business
model and core competencies of the company can be
licensed to others, providing bilateral benefits. The
company that receives the license may use it and prove its
value, and the company that licenses may obtain
additional funds and observe and learn from their
experience [17]. Companies can also invest in start-ups or
other organizations (e.g. spin-off) to keep an eye on
potential opportunities for innovation [8].
Finally, universities are a source of knowledge that
impacts the companies R&D processes [20]. This can be
achieved through various channels, for instance: research
partnerships, research services, academic
entrepreneurship, human resource transfer,
commercialization of intellectual property, scientific
publications and informal interaction [21].
III. RESEARCH DESIGN
This research was guided by a qualitative content
analysis [22] of case studies, which were derived from
databases and web analysis. Firstly, a search in Harvard
Business for Educators using the term "Open Innovation"
was performed, obtaining just 6 results. Additionally, the
complementary research was conducted in the recognized
databases as ISI Web of Knowledge, Proquest, Wiley
Online Library and Ebsco Host, this time considering the
documents published since 2003 (the year in which Open
Innovation concept was coined by Chesbrough), which
had the terms "Open Innovation" and "case study" or
"case" in their titles. From this search 72 articles were
obtained. These documents were filtered by assessing
title and abstract in order to eliminate repeated ones and
verify their relevance with the objective of the research
(i.e., single or multiple case studies which describe
organizational practices useful for the adoption of open
innovation model), obtaining as a result 22 documents.
Also, case studies of open innovation were searched on
the web, obtaining 7 more documents. Finally, 35
documents, which include case studies for academic
purposes, research articles applying single or multiple
case study methodology and some reports based on
companies cases published on the web were analyzed.
For this purpose, the software MAXQDA was used to
code the data within the three determinants of
organizational innovation (Leadership, Management
Facilitator, Business Processes) referred in the Multi-
Dimensional Framework of Organizational Innovation
proposed by Crossan & Apaydin [12].
IV. RESULTS
This article structures an interesting set of open
innovation practices identified in the analysis of relevant
case studies published in high quality scientific databases
(Table I within the Multi-Dimensional Framework of
Organizational Innovation proposed by Crossan &
Apaydin [12].
The multidimensional framework mentioned above
consolidates the determinants of innovation into three
dimensions: leadership, managerial levers, and business
processes. The leadership dimension is related to leaders’
characteristics and behaviors. The Managerial Levers
dimension provides the necessary connection between
leadership intentions and organizational results. Thus,
there are five types of managerial levers: mission, goals
Journal of Advanced Management Science Vol. 3, No. 4, December 2015
©2015 Engineering and Technology Publishing 363
and strategy, structures and systems, resource allocation,
organizational learning and knowledge management, and
organizational culture. Finally, the business processes
dimension refers to the way inputs are transformed into
outputs. This process include: initiation and decision-
making, portfolio management, project management, and
commercialization [12].
TABLE I. OPEN INNOVATION PRACTICES
Dimensions Practices Authors
Leadership
A chief officer who manages open
innovation process. [23]
The innovation manager is involved in
the integration of external technologies
or ideas.
[24] [11]
The innovation manager manages
relationships with knowledge partners. [25] [26]
The R&D managers perform the strategic plans of technology and
innovation.
[11] [26]
Man
ager
ial
Lev
ers
Mission,
goals & strategy
Open innovation is aligned with the company’s mission, objectives and
strategy and has been incorporated into the narrative of strategic management
elements.
[27] [28]
Corporate and innovation strategy includes investment in internal R&D.
All case
studies
reviewed.
The innovation strategy includes
knowledge sharing with external actors.
[24] [29]
Collaboration with stakeholders is
essential for innovation strategy. [30] [16] [31]
[11] [32] [29]
The innovation strategy is flexible with
adaptive goals. [33]
Innovation objectives include the implementation of open innovation
practices.
[29] [32] [25]
Structures & systems
Dedicated team that manages open innovation within the organization.
[11] [31]
Group, unit and
individual within the company that
manages specific
aspects of open innovation.
Exploration and acquisition of
external
knowledge.
[31] [11] [29]
[26] [25]
Exploitation of
technology externally.
[11] [29] [23]
[28]
Dimensions Practices Authors
Man
ager
ial
Lev
ers
Structures & systems
Group, unit and
individual within the company that
manages specific aspects of open
innovation.
Relationships and
collaborations with other organizations
[33] [11]
[25] [28]
Open innovation’s
technological tools. [11] [34]
[35] [36]
Flexible business units with flat hierarchies.
[33] [35]
Open innovation activities centralized
in R&D units. [28] [11]
Organizat. learning &
knowledge
management
Organization and/or participation in
fairs, forums or other events where
knowledge of different actors are integrated.
[37] [11]
[29] [38]
[26]
Setting up a network of informal
contacts. [33] [39]
Establishing knowledge networks. [16] [11]
[29] [38]
Using technology tools to foster collaboration in innovation
management (e.g. wiki, blogs, social networks, web applications).
[11] [36]
[35] [25]
[29] [34]
[40] [32][33]
[23] [41]
Creating communities of practice. [11] [36]
[27]
Collaboration with universities. [31] [28]
[11] [33]
[23]
Collaboration with other companies. [31] [30]
[11] [25]
[16]
Resource
allocation
Internal R&D investment. All case
studies
reviewed.
Funding of research projects at universities.
[26] [23]
[28] [11]
Funding ventures. [11]
Recruitment of open innovation staff. [35] [36]
[29]
Monetary rewards for innovators. [11] [42]
[34] [33]
[41]
Organizat. culture
The open innovation principles are
disseminated throughout the organization.
[11] [39]
Promoting collaborative working. [27] [11]
Staff training on communities and networks issues.
[39] [23]
[11]
Linking staff from diverse
backgrounds. [11] [31]
Establishment of multidisciplinary
work teams. [11] [35]
Empathetic and entrepreneurial staff. [11] [35]
Encouraging staff participation in
innovation processes. [11] [35]
[33] [41]
Bu
sines
s p
roce
ss Initiation &
decision-making
Monetary incentives to foster idea generation.
[11] [42]
[34] [36]
[43]
Non-monetary incentives to foster idea
generation. [37] [11]
[34] [36]
Standardization of idea management
process. [31] [35]
[44]
Decision-making related to the integration and development of
external ideas and technologies
involves different organizational units.
[35] [34]
[38] [11]
Portfolio management
Extending the project portfolio through
collaboration with others partners
(suppliers, universities, competitors).
[23] [30]
Internal entrepreneurship. [29] [11]
Dimensions Practices Authors
Bu
sines
s p
roce
ss
Portfolio management
External entrepreneurship. [31] [45]
[16] [23]
Acquisition of intellectual property. [11] [29]
Project management
Standardization of processes related to
the integration of external technologies in innovation projects.
[11]
Development of internal procedures to establish and maintain collaborative
research projects.
[32] [11]
Standardization of processes related to the intellectual property management.
[31] [11] [16]
[34]
Development of metrics to evaluate
open innovation projects. [11]
Commercia.
Exploring new and existing markets. [38] [31] [11]
Evaluation of potential products and/or
services in collaboration with customers.
[31] [11]
Commercialization of intellectual property.
[31] [29] [23]
[28]
Journal of Advanced Management Science Vol. 3, No. 4, December 2015
©2015 Engineering and Technology Publishing 364
V. CONCLUSIONS
Bearing in mind that open innovation implies a set of
changes related to the organizational culture, the
company structure, and the corporate and innovation
strategy, and that it requires resources for its adoption and
ongoing management, it is essential some important
inputs like the promotion, commitment, support and
clarity of top management. In the case studies considered
to do this research, it was found that open innovation is
led by establishing specific positions at management level.
Regarding to open innovation strategies adopted by
companies, there are two ways to do so in some cases. On
the one hand, companies have implemented global
strategies, which are aligned with the company’s strategic
management elements and objectives. On the other hand,
companies have implemented partial strategies, which are
aimed at specific factors of open innovation model (e.g.
collaboration with external actors, acquisition and/or
licensing of intellectual property).
Referring to the company organizational structure, the
activities related to open innovation are managed, in most
cases, within the R&D department. In addition, two
structural ways to implement this model were identified:
(1) establishment of dedicated teams and (2) designation
of groups, units or individuals who favor the adoption of
one or more essential elements of open innovation (e.g.
knowledge exploration, knowledge exploitation,
collaborations with companies and universities,
management of open innovation technological tools).
Concerning to knowledge management systems that
promote the diffusion, exchange and knowledge transfer
within the company and between it and its environment,
companies have adopted a number of mechanisms
including: organization and/or participation in events that
integrate knowledge from different actors, establishment
of formal and informal knowledge networks, and use of
technology tools and building communities of practice. In
the reviewed case studies, it was found that most
companies have begun to incorporate technological tools
such as wikis, blogs, social networks, web applications,
etc. to foster collaboration in innovation management.
Those tools not only provide companies a contact channel
with its stakeholders (e.g. employees, customers,
competitors) but also, facilitate collaboration with them
throughout the entire process of products or services
development. Specifically, most of the companies have
concentrated their efforts on increasing the participation
of employees and community in the innovation
management processes. Therefore, they have established
collaborative platforms for solving challenges and finding
ideas, and have been implemented mechanisms of
monetary and non-monetary incentives (e.g. public
recognition) to keep innovators motivated.
Additionally, it was found that companies actively
collaborate with other organizations (universities,
competitors, companies in unrelated sectors, suppliers,
etc.) in order to satisfy a specific technological or
knowledge need and/or to improve and expand the
products and services portfolio. These collaborations
provide a number of benefits (e.g. faster products or
services development and cost reduction), which allow
companies to effectively react to market requirements,
obtaining greater productivity, competitiveness and
leadership. Specifically, knowledge transfer between
universities and industry is done through the following
channels: consulting, human resources transfer (from
industry to university and vice versa), funding of research
projects at universities and joint research agreements.
Besides, the companies that have adopted an open
innovation approach keep investing in internal R&D.
This is in line with the findings of [3], which indicate that
innovation processes managed externally function as a
complement to internal R&D.
Referring to the organizational culture, the literature
reviewed has identified two syndromes that companies
must overcome to facilitate the adoption of this emerging
model. First, distrusting the quality, availability and
capacity of the ideas of others and, second, the tendency
to monopolize the use of their innovations only within
their own business [17]. Therefore, the companies studied
in the cases have implemented a number of practices such
as promoting open innovation throughout the
organization, staff training on issues related to
communities and networks, hiring empathic and
entrepreneur staff of different backgrounds and
encouraging employee participation in innovation
processes.
With respect to the business processes, the integration
of ideas from external sources and the collaboration with
other organizations in the innovation management are
standardized process in some of the companies studied.
This practice improves the performance of open
innovation and allows the evaluation of this model
through predefined metrics.
Finally, it is important to be aware of the fact that the
paradigm of open innovation has also been extended to
the public sector, encouraging the contribution of citizens
in solving social problems [36].
REFERENCES
[1] G. G. Dess and J. C. Picken, “Changing roles: Leadership in the
21st century,” Organizational Dynamics, vol. 28, no. 3. pp. 18–34,
Jan. 2000.
[2] B. Lawson and D. Samson, “Developing innovation capability in
organisations: A dynamic capabilities approach,” Int. J. Innov. Manag., vol. 5, no. 3, pp. 377-400, Sep. 2001.
[3] H. Chesbrough and A. K. Crowther, “Beyond high tech: Early
adopters of open innovation in other industries,” R&D Manag., vol. 36, no. 3, pp. 229–236, June 2006.
[4] H. W. Chesbrough, “The era of open innovation,” MIT Sloan
Manag. Rev., vol. 44, no. 3, pp. 35–41, Apr. 2003. [5] E. Enkel, O. Gassmann, and H. Chesbrough, “Open R&D and
open innovation: Exploring the phenomenon,” R&D Manag., vol.
39, no. 4, pp. 311–316, Sep. 2009. [6] H. W. Chesbrough, “Why companies should have open business
models,” MIT Sloan Manag. Rev., vol. 48, no. 2, pp. 22–28, Jan
2007. [7] M. W. Wallin and G. Von Krogh, “Organizing for open innovation:
Focus on the integration of knowledge,” Organ. Dyn., vol. 39, no.
2, pp. 145-154, Apr. 2010.
[8] V. van de Vrande, J. P. J. de Jong, W. Vanhaverbeke, and M. de
Rochemont, “Open innovation in SMEs: Trends, motives and
management challenges,” Technovation, vol. 29, no. 6–7, pp. 423–437, Jun. 2009.
Journal of Advanced Management Science Vol. 3, No. 4, December 2015
©2015 Engineering and Technology Publishing 365
[9] G. Slowinski and M. W. Sagal, “Good practices in open innovation,” Res. Technol. Manag., vol. 53, no. 5, pp. 38-45, Sep.
2010.
[10] R. Kirschbaum, “Open innovation in practice,” Res. Technol. Manag., vol. 48, pp. 24–28, July 2005.
[11] P. Leavitt and B. Partida, Open Innovation: Enhancing Idea
Generation Through Collaboration. APQC, Houston, Texas, Tech. Rep., Aug. 2013.
[12] M. M. Crossan and M. Apaydin, “A Multi-dimensional framework
of organizational innovation: A systematic review of the literature,” J. Manag. Stud., vol. 47, no. 6, pp. 1154–1191, Sep.
2010.
[13] E. Huizingh, “Open innovation: State of the art and future perspectives,” Technovation, vol. 31, no. 1, pp. 2–9, Jan. 2010.
[14] H. Chesbrough, W. Vanhaverbeke, and J. West, Open Innovation:
Researching a New Paradigm, 1st ed. Oxford, U.K.: Oxford University Press, ch. 1, 2006.
[15] J. West and S. Gallagher, “Challenges of open innovation: The
paradox of firm investment in open-source software,” R&D Manag., vol. 36, no. 3, pp. 319–331, June 2006.
[16] K. Dittrich and G. Duysters, “Networking as a means to strategy
change: The case of open innovation in mobile telephony,” J. Prod. Innov. Manag., vol. 24, no. 6, pp. 510–521, Nov. 2007.
[17] H. Chesbrough, “Managing open innovation,” Res. Technol.
Manag., vol. 47, no. 1, pp. 23–26, Feb. 2004. [18] O. Gassmann, “Opening up the innovation process : Towards an
agenda,” R&D Manag., vol. 36, no. 3, pp. 223–228, June 2006.
[19] H. W. Chesbrough, “Why companies should have open business models,” MIT Sloan Manag. Rev., vol. 48, no. 2, pp. 21–28, Jan.
2007.
[20] W. M. Cohen, R. R. Nelson, and J. P. Walsh, “Links and impacts: The influence of public research on industrial R&D,” Manage. Sci.,
vol. 48, no. 1, pp. 1–23, Jan. 2002.
[21] M. Perkmann and K. Walsh, “University–industry relationships and open innovation: Towards a research agenda,” Int. J. Manag.
Rev., vol. 9, no. 4, pp. 259–280, Dec. 2007.
[22] S. Elo and H. Kyngäs, “The qualitative content analysis process,” J. Adv. Nurs., vol. 62, no. 1, pp. 107–115, Apr. 2008.
[23] M. Decter and C. Garner, “Access is the new ownership: A case study of Unilever’s approach to open innovation,” Inst. Entrepren.
and Enter. Development Lancaster Univer. Tech. Rep., Lancaster,
U. K., 2013. [24] A. M. Islam, “Methods of open innovation knowledge sharing risk
reduction: A case study,” Int. J. e-Education, e-Business, e-
Management e-Learning, vol. 2, no. 4, pp. 294–297, Aug. 2012. [25] H. Atterfors and S. Farneman, “The role of open innovation:
Focus on the pharmaceutical industry,” Bachelor thesis, School of
Busin., Econo. and Law. University of Gothenburg, Gothenburg, Sweden, 2012.
[26] T. Buganza and R. Verganti, “Open innovation process to inbound
knowledge. Collaboration with universities in four leading firms,” Eur. J. Innov. Manag., vol. 12, no. 3, pp. 306–325, Sept. 2009.
[27] A. Abd-Elaziz, I. Ezz, A. Papazafeiropoulou, R. Paul, and L.
Stergioulas, “Investigating the critical success factors and infrastructure of knowledge management for open innovation
adoption: The case of GlaxoSmithKline (GSK) in Egypt,”
presented at Hawaii Int. Conf. Syst. Sci., Wailea, Hawaii, Jan. 4-7, 2012.
[28] C. Ades, A. Figlioli, R. Sbragia, G. Porto, G. Plonsky, and K.
Celadon, “Implementing open innovation : The case of Natura, IBM and Siemens,” J. Technol. Manag. Innov., vol. 8, pp. 12–25,
Feb. 2013.
[29] M. Dodgson, D. Gann, and A. Salter, “The role of technology in the shift towards open innovation: The case of Procter & Gamble,”
R&D Manag., vol. 36, no. 3, pp. 333–346, June 2006.
[30] A. Karamitsios, “Open innovation in EVs: A case study of Tesla motors,” M.S. thesis, School of Ind. Engin. and Manag., Royal
Institute of Technology, Stockholm, Sweden, 2013.
[31] A. De Massis, V. Lazzarotti, E. Pizzurno, and E. Salzillo, “Open innovation in the automotive industry: A multiple case-study,”
Manag. Technol. Innov. Dev. Dev. Countries, pp. 217–236, Mar.
2012. [32] A. F. Portilho, “Open innovation in a cosmetic firm: Developing
capabilities in managing communities,” presented at XXV
Simpósio da Inovação Tecnológica, Brasilia, Oct. 22-24, 2008.
[33] S. Brunswicker and F. Ehrenmann, “Managing open innovation in SMEs: A good practice example of a german sortware firm,” Int. J.
Ind. Eng, and Manag., vol. 4, pp. 33-41, Jan. 2013.
[34] L. Bengtsson and N. Ryzhlova, “Managing online users in open innovation. The case of a nordic telecom company,” Digiworld
Econ. J., vol. 89, pp. 37–53, Mar. 2013.
[35] K. Lakhani, A.-L. Fayard, N. Levina, and S. Pokrywa, “OpenIDEO,” Harv. Bus. Sch., Boston, M.A., Case Study 612-066,
2012.
[36] K. Desouza and I. Megel, “Implementing open innovation in the public sector: The case of challenge. gov,” Public Adm. Rev., pp.
1–9, Dec. 2013.
[37] R. Gilleran and E. Noyes, “MakerBot: Challenges in building a new industry,” Babson College, Wellesley, MA, p. 17, Case Study
BAB706C, 2013.
[38] L. C. Rodrigues, E. A. Maccari, and M. D. A. Campanario, “Expanding the open innovation concept: The case of TOTVS
S/A,” J. Inf. Syst. Technol. Manag., vol. 7, no. 3, pp. 737–754,
Dec. 2010. [39] V. Allee and J. Taug, “Collaboration, innovation, and value
creation in a global telecom,” Learn. Organ., vol. 13, no. 6, pp.
569–578, Oct. 2006. [40] L. Dries, S. Pascucci, Á. Török, and J. Tóth, “Open innovation: A
case-study of the Hungarian wine sector,” EuroChoices, vol. 12,
no. 1, pp. 53–59, Apr. 2013. [41] F. Carbone, J. Contreras, J. Z. Hernández, and J. M. Gomez-Perez,
“Open innovation in an enterprise 3.0 framework: Three case
studies,” Expert Syst. Appl., vol. 39, no. 10, pp. 8929–8939, Aug. 2012.
[42] M. Antikainen, M. Mäkipää, and M. Ahonen, “Motivating and
supporting collaboration in open innovation,” Eur. J. Innov. Manag., vol. 13, no. 1, pp. 100–119, Jan. 2010.
[43] E. Grøtnes, “Standardization as open innovation: Two cases from
the mobile industry,” Inf. Technol. People, vol. 22, no. 4, pp. 367–381, Jan. 2009.
[44] S. Nambisan, J. Bacon, and J. Throckmorton, “The role of the
innovation capitalist in open innovation: A case study and key lessons learned,” Res. Manag., vol. 55, no. 3, pp. 49–57, May
2012. [45] J. Kuschel, B. Remneland, and M. Holmqvist, “Open innovation
and control: A case from Volvo,” Hawaii Int. Conf. Syst. Sci.,
Koloa, Hawaii, Jan. 4-7, 2010.
Leidy Tatiana
Rodríguez
Torres
was
born
in Málaga,
Colombia
in
October
9,
1990.
She
finished
a
bachelor
degree
in
Industrial Engineering
from
Industrial
University
of
Santander, Bucaramanga,
Colombia
in
2014.
She is
part
of
the
Center
for
Technology
and
Innovation
Management
Research
in
the Industrial
University
of
Santander.
Her
research
interests
are
focus
on
Innovation Management,
specifically
in
open
models
of
innovation,
which
includes
topics
as
knowledge
networks, crowdsourcing,
customer
involvement,
dynamic
capabilities,
collaborative
R&D,
and
so
on.
Furthermore,
she
is
keen
on
Green Innovation
Management
and
Social
Innovation.
Leidy
Tatiana
Rodríguez
Torres
has
been
an
outstanding
student
at
Industrial University
of
Santander.
For
her
good
academic
performance,
she
won
a scholarship
to
take
part
in
an
academic
exchange
program
at
Autonomous University
of
Mexico
(UNAM)
for
a semester.
She
also
won the
distinction
Cum
Laude
in
her
bachelor
degree.
Edna
Rocío
Bravo
Ibarra
was
born
in
San
Agustín,
Colombia
in
February
27,
1979.
She
finished
a
Ph.D.
in
Business
Administration
from
Technical
University
of
Catalonia,
Barcelona,
Spain
in
2010.
She
holds
a
bachelor
degree
in
Industrial
Management
Engineering
from
the
same
university,
which
was
finished
in
2006.
She
has
been
a
Lecturer
at
Industrial
University
of
Santander,
Bucaramanga,
Colombia
since
February,
Journal of Advanced Management Science Vol. 3, No. 4, December 2015
©2015 Engineering and Technology Publishing 366
2011. She is also a researcher at the Center for Technology and Innovation Management Research in the Industrial University of
Santander. She was professor at Technical University of Catalonia.
Some of her publications in scientific journals include the following titles: “Development in Pedagogical Tools: Case Study Videos on
Innovative Local Entrepreneurship”, “An innovative teaching practice
based on online channels: a qualitative approach”, “Distribution and effect of R&D subsidies: A comparative analysis according to firm size”.
Her research interests include Innovation management, technology
management, design thinking, innovation strategy, strategy play, and knowledge management models. Edna Rocío Bravo Ibarra is a member
of the Editorial Board of Intangible Capital journal. She won an award
of Quality in University Teaching, Spain, 2009.
Adriana
Paola
León
Arenas
was
born
in
Bogotá,
Colombia
in
June
29,
1989.
She
finished
a
bachelor
degree
in
Industrial
Engineering
from
Industrial
University
of
Santander,
Bucaramanga,
Colombia
in
2012.
She
works
as
a
Commercial
Developments
Analyst
at
CEMEX,
Bogotá,
Colombia.
She
was
a
researcher
at
Center
for
Technology
and
Innovation
Management
Research
in
the
Industrial
University
of
Santander.
She
published
an
article
entitled
“An
Analysis
of
Success
Factors
and
Benefits
of
Open
Innovation”
in
The
International
Network
of
Business
and
Management
Journals
(INBAM,
2013,
Portugal).
Her
research
interests
include
Innovation
management,
technology
management
and
knowledge
management.
Adriana
Paola
León
Arenas
won
the
distinction
Summa
Cum
Laude
in
her
bachelor
degree.
Journal of Advanced Management Science Vol. 3, No. 4, December 2015
©2015 Engineering and Technology Publishing 367